Effects of gestational hypothyroidism on mouse brain development: Gabaergic systems and oxidative stress

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-22 DOI:10.1016/j.ydbio.2024.07.010
Edênia da Cunha Menezes , Fabiula Francisca de Abreu , Jada B. Davis , Sara V. Maurer , Venezia C. Roshko , Angela Richardson , Jonathan Dowell , Sarah N. Cassella , Hanna E. Stevens
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Abstract

Hormonal imbalance during pregnancy is a risk factor for neuropsychiatric impairment in the offspring. It has been suggested that hypothyroidism leads to dysfunction of cortical GABAergic interneurons and inhibitory system development that in turn underlies impairment of the central nervous system. Here we investigated how gestational hypothyroidism affected offspring GABAergic system development as well as redox regulation parameters, because of previous links identified between the two. Experimental Gestational Hypothyroidism (EGH) was induced in CD-1 mice with 0.02% methimazole (MMI) in drinking water from embryonic day 9 (E9) until tissue collection at embryonic day 14 (E14) or E18. We examined GABAergic cell distribution and inhibitory system development gene expression as well as redox relevant gene expression and direct measures across all embryos regardless of sex. Intrauterine restriction of maternal thyroid hormones significantly impacted both of these outcomes in brain, as well as altering redox regulation in the placenta. GAD67+ neuronal migration was reduced, accompanied by a disruption in gene expression influencing GABAergic cell migration and cortical inhibitory neural system development. EGH also altered embryonic brain gene expression of Gpx1, Nfe2l2, Cat levels in the dorsal E14 brains. Additionally, EGH resulted in elevated TBARS, Gpx1 and Nfe2l2 in the ventral E18 brains. Furthermore, EGH downregulated placental Gpx1 gene expression at E14 and increased protein oxidation at E18. These findings support the hypothesis that sufficient maternal thyroid hormone supply to the fetus influences central nervous system development, including processes of GABAergic system development and redox equilibrium.

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妊娠甲状腺功能减退症对小鼠大脑发育的影响:伽马能系统和氧化应激。
孕期荷尔蒙失调是导致后代神经精神障碍的一个危险因素。有研究认为,甲状腺功能减退会导致大脑皮层GABA能中间神经元和抑制系统发育障碍,进而导致中枢神经系统受损。在此,我们研究了妊娠期甲状腺机能减退如何影响后代GABA能系统发育以及氧化还原调节参数,因为之前已发现两者之间存在联系。从胚胎第9天(E9)到胚胎第14天(E14)或E18天的组织采集期间,在饮用水中加入0.02%的甲巯咪唑(MMI)诱导CD-1小鼠患上实验性妊娠甲状腺功能减退症(EGH)。我们研究了GABA能细胞的分布、抑制系统发育基因的表达以及氧化还原相关基因的表达,并直接测量了所有胚胎(无论性别)的情况。宫内限制母体甲状腺激素会显著影响大脑中的这两种结果,并改变胎盘中的氧化还原调节。GAD67+神经元迁移减少,同时影响GABA能细胞迁移和大脑皮层抑制性神经系统发育的基因表达也受到破坏。EGH还改变了胚胎大脑中Gpx1、Nfe2l2和E14背侧大脑中Cat水平的基因表达。此外,EGH还导致E18腹侧大脑中TBARS、Gpx1和Nfe2l2的升高。此外,EGH下调了E14期胎盘Gpx1基因的表达,并增加了E18期的蛋白质氧化。这些发现支持了母体向胎儿提供充足甲状腺激素会影响中枢神经系统发育,包括GABA能系统发育和氧化还原平衡过程的假设。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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